水热法制备二氧化钛微球的形貌控制及机理研究

以钛粉、Na OH和H2O2为原料,采用水热法成功制备出二氧化钛微球。利用X-射线粉末衍射仪(XRD)、扫描电子显微镜(SEM)和场发射扫描电镜(FESEM)对产物的结构、形貌和尺度进行了表征。结果表明,产物为金红石型Ti O2,微球的直径约为1~2μm,微球由许多纳米管组成。根据实验结果,讨论了二氧化钛纳米管的生长机理,初步研究了双氧水用量,水热温度以及煅烧温度等对产物形貌形成的影响。     

Preparation of coatings from a series of silicone/fluorine‐functionalized polyacrylates via electrophoretic deposition

Silicone/fluorine‐functionalized polyacrylates were synthesized and subsequently used to prepare corrosion‐resistant transparent coatings via electrophoretic deposition. The coated tin plate with the functionalized polyacrylate had a gloss value higher than 95.0 GU and resisted rust after immersion in a 5 wt% NaCl solution for 10 days. In addition, these coatings remained adhered strongly to the tin plates even after they were bent. It is hoped that this work will provide useful experimental data and assist researchers with the design of applicable coatings with desirable properties. Copyright © 2015 John Wiley & Sons, Ltd.     

A new flavonoid glycoside from Elsholtzia bodinieri

A new flavonoid glycoside, eriodictyol 7-O-(6″-caffeoyl)-β-D-glucopyranoside (1), along with 14 known compounds, were isolated from the whole plants of Elsholtzia bodinieri. All of the structures were determined by spectroscopic methods and chemical transformation. Compound 1 and luteolin (9) exhibited potent anti-HCV activities with a selective index of 135.85 and 20.84, respectively.     

Self-supported metal sulphide nanocrystals-assembled nanosheets on carbon paper as efficient counter electrodes for quantum-dot-sensitized solar cells

Developing efficient counter electrodes (CEs) and quantum dots made of earth-abundant and non-toxic elements is essential but still challenging for quantum dot-sensitized solar cells (QDSSCs). Here, we report a facile strategy to prepare self-supported and robust CoS₂ and NiS nanocrystals-assembled nanosheets directly grown on carbon paper (MSx NS@CP) as efficient counter electrodes for QDSSCs. Such CEs integrate the merits of fast electron transfer from interconnected conductive scaffold, efficient mass transfer from hierarchically vertical nanosheet on 3D open substrate, as well as abundant highly active catalytic sites from metal sulphide nanocrystal units. As a result, QDDSCs based on such CoS₂ NS@CP and NiS NS@CP CEs achieve a PCE of 8.88% and 7.53%, respectively. The detailed analyses suggest that CoS₂ NS@CP has the highest catalytic activity and shows the lowest charger transfer resistance, leading to the highest PCE. These findings may inspire the design and exploration of other self-supported efficient CEs by integrating highly active catalysts onto 3D conductive networks for efficient QDSSCs.     

4,5-二苯基-2-(9-苯基-9H-3-咔唑基)-1H-咪唑的合成及其性能

以联苯甲酰、对溴苯甲醛和乙酸铵为原料,经缩合反应制得2-(4-溴苯基)-4,5-二苯基咪唑(1); 1与N-苯基-3-咔唑硼酸经Suzuki偶联反应合成了一种具有D-π-A结构的新型咪唑衍生物4,5-苯基-2-(9-苯基-9H-3-咔唑基)-1H-咪唑(2）,其结构经¹H NMR, ¹³C NMR, IR和MS(EI)表征。采用FL, UV-Vis,循环伏安法（CV）和理论计算对2的光电性能进行了研究。结果表明：2的最大吸收波长为302 nm和326 nm,荧光发射波长为395 nm和412 nm, HOMO和LUMO轨道能级分别为5.35 eV和2.14 eV。     

从科研中提炼出的精细化工专业实验:新型疏水缔合聚合物的制备、表征及性能测定*

结合教师科研项目,推荐一个精细化工专业实验:疏水缔合聚合物的制备、表征及性能测定。通过该实验可以使学生掌握自由基共聚法制备聚合物的基本原理,掌握一些大型仪器的基本操作、聚合物常用的表征手段及结构分析方法,理解疏水缔合聚合物结构与性能之间深层次的理论联系。该实验项目来源于科研,服务于实践,集聚合反应、结构表征、大分子溶液理化性能测试于一体,具有综合性、前沿性、研究性等特点。本实验的开设有利于提高精细化工方向学生的专业实验水平,提升学生的综合探究素质、创新意识及动手能力。     

原子荧光光谱法直接测定二甲基二硒

硒位于第六主族,为准金属元素。在自然界中硒的存在形式按其结合形态分为无机硒和有机硒[1,2]。有机硒较无机硒具有更高的生物活性,因此准确测定各种样品中的有机硒具有重要意义。对于挥发性有机硒,一般采用洗脱富集将其与样品基体分离,采用固相吸附[3,4]或液氮冷阱捕集[5,6],热解析或溶剂萃取后用气相色谱测定[7,8]。这些方法可以提供许多有机硒的信息,但其不足之处是程序较为繁琐。原子荧光光谱分析法(AFS)具有准确度高、灵敏度高、线性范围宽、干扰少等优点,故本文利用AFS的特点及二甲基二硒(DMDSe)的挥发性,在不加任何试剂的条件下,…     

以混合价镍氢氧化物为镍源固气合成LiNi0.7Co0.25Al0.05O2

层状LiCoO2作为锂离子二次电池电极正极材料已得到广泛应用。由于钴资源匮乏及成本高,致使进一步提高比容量和比能量以及降低成本的研究引起关注。诸如LiCoO2体材中钴被M(N i,Mn,Ti,Mg)替代或部分被替代的研究[1-3],表面修饰研究[4-6],合成方法研究如固相法[7],溶胶凝胶法[8],共沉淀法[9],微波加热合成法[10]等。与钴相比,镍资源相对丰富且对环境友好,故以镍代钴合成LiCo1-xN ixO2的研究成为热点[11-13]。由于N i2 难以被氧化成N i3 致使合成时易生成非化学计量化合物,加之在充放电过程中,由于Li 离子与N i3 离子半径相近易产生阳离…     

Synthesis and Crystal Structure of [{Cd(hmbdc)(H2O)3}·2H2O]n

A novel coordination polymer [{Cd(hmbdc)(H2O)3}·2H2O]n (hmbdc=5-hydroxy- isophthalic acid) has been synthesized and characterized by elemental analysis, IR spectra and single-crystal X-ray diffraction. The crystal belongs to monoclinic, space group P21/c, with a=9.599(3), b=18.699(5), c=7.557(2) (A), β= 108.198(4)°, V=1288.6(6) (A)3, Z=4, Mr=382.60, Dc=1.972 g/cm3, F(000)=760, μ=1.740, the final R=0.0555 and wR=0.0995 for 1732 observed reflections with Ⅰ ＞ 2σ(Ⅰ). The structural analysis shows that the intermolecular hydrogen bonds and π-π interactions result in a three-dimensional supramolecular framework.     

Influence of Fe2O3 and V2O5 on Crystalline Structure of Mg-Al Spinel Synthesized by Waste Aluminum Slag

Mg-Al spinel is synthesized by using industrial waste-residue and basic magnesium carbonate in the aluminum factory as the main raw materials. The influence of V2O5 and Fe2O3 mineralizers on the structure, cell parameters and microscopic morphology of synthesized Mg-Al spinel has been discussed. The Mg-Al spinel is characterized by using XRD, SEM and relevant analytical software, such as Philips plus, Rietveld quantification and so on. The experimental results show that certain amounts of V2O5 and Fe2O3 are beneficial to the formation of Mg-Al spinel, and the optimum addition of V2O5 and Fe2O3 is respectively 2wt% and 3wt%. V2O5 has few effects on cell parameters of Mg-Al spinel; but Fe2O3 can form solid solution with Mg-Al spinel in which Mg-Fe spinel can also dissolve to form continuous solid solution. Therefore, with the increase of Fe2O3 content, the cell parameters of Mg-Al approximately present linear increase.